Impact of Human Immunodeficiency Virus Drug Resistance Mutations Detected in Women Prior to Antiretroviral Therapy With Efavirenz + Tenofovir Disoproxil Fumarate + Lamivudine (or Emtricitabine)

Abstract Background Two large studies suggest that resistance mutations to only nonnucleoside reverse transcriptase inhibitors (NNRTI) did not increase the risk of virologic failure during antiretroviral therapy (ART) with efavirenz/tenofovir disoproxil fumarate/lamivudine (or emtricitabine). We retrospectively evaluated a third cohort to determine the impact of NNRTI resistance on the efficacy of efavirenz-based ART. Methods Postpartum women living with human immunodeficiency virus (HIV) were studied if they initiated efavirenz-based ART because of the World Health Organization’s recommendation for universal ART. Resistance was detected by Sanger genotyping plasma prior to efavirenz-based ART and at virologic failure (HIV RNA >400 copies/mL). Logistic regression examined relationships between pre-efavirenz genotypes and virologic failure. Results Pre-efavirenz resistance was detected in 169 of 1223 (13.8%) participants. By month 12 of efavirenz-based ART, 189 of 1233 (15.3%) participants had virologic failure. Rates of virologic failure did not differ by pre-efavirenz NNRTI resistance. However, while pre-efavirenz nucleos(t)ide reverse transcriptase inhibitors (NRTI) and NNRTI resistance was rare (8/1223 [0.7%]) this genotype increased the odds (adjusted odds ratio, 11.2 [95% confidence interval, 2.21–72.2]) of virologic failure during efavirenz-based ART. Age, time interval between last viremic visit and efavirenz initiation, clinical site, viremia at delivery, hepatitis B virus coinfection, and antepartum regimen were also associated with virologic failure. Conclusions Resistance to NNRTI alone was prevalent and dual-class (NRTI and NNRTI) resistance was rare in this cohort, with only the latter associated with virologic failure. This confirms others’ findings that, if needed, efavirenz-based ART offers most people an effective alternative to dolutegravir-based ART.

Following the introduction of antiretroviral therapy (ART) in low-and middle-resource settings, multiple World Health Organization (WHO) surveillance studies detected pre-ART human immunodeficiency virus (HIV) drug resistance (PDR) prevalent at ≥10% [1].The resistance mutations were primarily associated with resistance to nonnucleoside reverse transcriptase inhibitors (NNRTIs).This generated concern that PDR could undermine the efficacy of ART composed of tenofovir disoproxil fumarate (TDF)/lamivudine (3TC)/efavirenz (EFV) [2].These concerns and the manufacturing of affordable TDF/3TC/dolutegravir (DTG) triggered the WHO in 2018 to recommend TDF/ 3TC/DTG for first-line ART [3].However, prior to this recommendation, across 2006-2014 when PDR to NNRTIs was increasing, particularly among women of childbearing potential [4], and when first-line ART switched from zidovudine (ZDV)/ 3TC/nevirapine (NVP) to TDF/3TC/EFV, studies of Kenyans found that the impact of specific PDR mutational patterns on virologic failure appeared to vary depending on whether the NNRTI in the ART regimen was NVP or EFV [5,6].Specifically, K103N alone, which was the most frequent PDR mutational pattern, was associated with virologic failure to NVP/ ZDV/3TC or NVP/stavudine/3TC but not to TDF/3TC/EFV [5].Similarly, a study of South Africans (ANRS 12249) found Impact of PDR on Efavirenz-Based ART • OFID • 1 Open Forum Infectious Diseases M A J O R A R T I C L E that PDR to only NNRTIs (primarily K103N), including minority variants, had no detectable impact on viral suppression with predominantly TDF/emtricitabine (FTC)/EFV [7].These findings are highly relevant, as both suggest that TDF/EFV combined with either 3TC or FTC (TXE) can be used effectively in people with K103N and perhaps other major NNRTI mutations-expanding available ART options.The present study assesses in an additional cohort the impact of PDR on virologic failure during EFV-based ART and evaluates specific mutant codons associated with virologic failure.

Study Participants and Design
Women prescribed EFV-based ART during the Promoting Maternal and Infant Survival Everywhere (PROMISE) trial (see study schema in Figure 1) were retrospectively assessed for HIV drug resistance mutational patterns prior to EFV-based ART associated with virologic failure to this regimen [8].PROMISE was a large, randomized trial that compared the relative safety and efficacy of 3 ART regimens for the prevention of mother-to-child HIV transmission during pregnancy in pregnant women living with HIV with CD4 counts above the level that (at the time) qualified for ART in sub-Saharan Africa and India.During the PROMISE trial, the TEMPRANO and strategic timing of antiretroviral therapy (START) trials demonstrated the benefits of starting ART despite "high" CD4 counts [9,10]; thus, adult PROMISE participants could initiate EFV-based ART at any point for their health.Most PROMISE participants initiated EFV/TDF combined with 3TC (59%) or FTC (39%), or rarely (2%) combined with other nucleoside reverse transcriptase inhibitors (NRTIs) [11].Therefore, EFV-based ART is also referred to as TXE in this study.In our study population, all participants initiated EFV-based ART during the postpartum or maternal health components of the PROMISE trial (Figure 1).
Inclusion criteria for this substudy were (1) initiation of EFV-based ART during PROMISE; (2) available plasma with HIV RNA >400 copies/mL prior to initiation of EFV-based ART; and (3) plasma HIV RNA measured at months 6 and 12 (±3 months) of EFV-based ART.Pre-EFV resistance-hereafter, PDR-and other parameters known to affect the likelihood of ART suppression were compared between participants who did versus did not have virologic failure (HIV RNA >400 copies/mL) by 12 months of EFV-based ART.PDR was assessed by Sanger sequences using participants' viremic plasma nearest to the initiation of EFV-based ART.Genotypic resistance testing was also performed using first virologic failure plasma (month 6 or 12).
One covariate associated with virologic failure led to a post hoc study using next-generation sequencing of pre-EFV plasma.Plasma from cases and randomly selected controls (1:3) were tested to address the hypothesis that dual-class PDR with minority variants not detected by Sanger sequencing contributed to virologic failure.

Laboratory Methods
RNA extracted from plasma (140-1000 μL) by QIAamp viral RNA mini kit (Qiagen, Valencia, California) was reverse transcribed, and HIV pol encoding protease and a portion of reverse transcriptase was amplified using PrimeScript One Step reversetranscription polymerase chain reaction (PCR) (Takara Bio USA, Mountain View, California) followed by consensus Sanger sequencing [12].For Illumina sequencing, RNA was reverse transcribed using SuperScript III First-Strand Synthesis System (Invitrogen, Carlsbad, California) and a primer consisting of an HIV-specific sequence (Supplementary Table 1) followed by a string of 8 random nucleotides (unique molecular identifier [UMI]) and a universal 24 bp Illumina index adapter sequence, then bead-purified (Agencourt Ampure XP, Beckman-Coulter, Beverly, Massachusetts).The complementary DNA was amplified (45 cycles; primers in Supplementary Table 1) using a highfidelity PCR kit (FastStart High-Fidelity PCR system, Roche Diagnostics, Mannheim, Germany), then indexed (IDT for Illumina Nextera DNA Unique Dual Indexes, Illumina, San Diego, California) and pooled for bidirectional sequencing on an Illumina MiSeq (MiSeq Reagent Kit v3, Illumina).
PDR was defined by the 2009 WHO surveillance list of transmitted drug resistance mutations [14] for the primary analyses of the entire cohort and the post hoc case-control study.HIV drug resistance at virologic failure was defined by a genotypic susceptibility score (GSS) ≥10 for EFV, TDF, and/or XTC (Stanford HIVdb version 8.9-1) [15].

Statistical Analyses
The prevalence of PDR at the initiation of EFV-based ART and at virologic failure was compared across clinical sites by χ2 test.
Virologic failure between women with and without PDR was compared by Fisher exact test.Covariates associated with virologic failure were analyzed using unadjusted and adjusted logistic regression models of virologic failure during EFV-based ART, including PDR genotype, age, CD4 cell count, plasma HIV RNA, and detection of hepatitis B surface antigen (HBsAg) at PROMISE entry, HIV RNA load at EFV initiation, time (weeks) between delivery and EFV initiation, time (weeks) between last viremic visit and EFV initiation (pre-EFV specimen), time (weeks) on EFV, clinical site, delivery HIV RNA load, PROMISE antepartum randomization group, and PROMISE postpartum randomization group.To determine if mutations not defined as resistance mutations by Stanford may have contributed to virologic failure, we compared the frequency of mutations encoding reverse transcriptase "other" mutations between TDF-exposed versus TDF-unexposed participants prior to EFV-based ART and the rates of virologic failure among TDF-exposed participants with versus without each specific "other" mutations by Fisher exact test.
The post hoc case-control analyses of Sanger and Illumina sequences compared pre-EFV genotypes between women who experienced virologic failure versus suppression on EFV-based ART using unadjusted logistic regression.Comparisons were conducted using mutational frequencies of ≥20% mutant (assumed when detected by Sanger sequencing) and ≥5% and ≥1% mutant.To reduce bias and address data separation, Firth penalized likelihood approach was applied to logistic regression models [16,17].
Sensitivity analyses were performed that defined PDR using mutations with GSS ≥10 by Stanford HIVdb to EFV, TDF, and/or XTC (instead of WHO resistance surveillance list).Participants with mutations not conferring resistance to TXE (eg, T215F or T215S conferring resistance to ZDV) were categorized as wild-type.All statistical analyses were conducted using RStudio (v4.2.1) with statistical significance defined as a 2-sided P value <.05 [18].

Patient Consent Statement
This study addressed a secondary objective outlined in the trial protocol, which was approved by local and collaborating institutional review boards.All PROMISE trial participants provided written informed consent.

Role of Funding Source
The funder had no role in study design; data generation, analysis, or interpretation; or manuscript writing.

Study Population
A total of 1233 PROMISE participants were studied.Demographic and clinical characteristics of participants prior to EFV initiation from 14 different sites in 7 countries are shown in Table 1.Participants were randomized to antepartum and postpartum regimens within the PROMISE protocol prior to EFV-based *Single-dose nevirapine was given at labor/delivery with a "tail" of tenofovir disoproxil fumarate /emtricitabine for 6-14 days to reduce the risk of resistance.†Eligible and willing antepartum and late-presenting mothers and their infants were randomized for the duration of breastfeeding; infants were to be followed to 104 weeks of age.Some mothers who were ineligible for the postpartum component were directly randomized to the maternal health component after delivery.‡Randomization to the maternal health component occurred at breastfeeding cessation or at or after 74 weeks of breastfeeding for women randomized in the postpartum component.Those randomized directly to the maternal health component after delivery were randomized between 6 and 28 days postpartum.Participants randomized in the antepartum component and not randomized in the postpartum component remained in observational follow-up.Abbreviations: 3TC, lamivudine; ART, antiretroviral treatment; ARVs, antiretroviral drugs; EFV, efavirenz; FTC, emtricitabine; LPV/r, ritonavir-boosted lopinavir; MTCT, mother-to-child transmission; NVP, nevirapine; PROMISE, Promoting Maternal and Infant Survival Everywhere; R, randomization; sdNVP, single-dose nevirapine; TDF, tenofovir disoproxil fumarate; ZDV, zidovudine.
ART.The median time between delivery and EFV initiation was 112 weeks (interquartile range, 64-151 weeks).
Dual-class resistance (defined as ≥1 NRTI and ≥1 NNRTI mutation) was the only PDR pattern associated with virologic failure during EFV-based ART in logistic regression models (  3).CD4 count at entry into the PROMISE trial, the time interval between delivery and EFV initiation, the duration of EFV-based ART, and the PROMISE postpartum treatment randomization were not associated with virologic failure on EFV-based ART.
Illumina sequences from 22 of 24 cases and 79 of 80 controls evaluated whether PDR patterns in the TDF/FTC + LPV/r arm including low-frequency TDF or FTC resistance mutations missed by Sanger genotyping were associated with virologic failure during EFV-based ART.A comparison of PDR by Sanger and Illumina sequences, using a threshold frequency of 20%, found concordant genotypes for 100 of 101 (99.0%) participants based on the WHO surveillance mutations list [14]; the discordant result was in a control with K103N detected at a frequency of 25% by Illumina that was not detected by Sanger sequencing.In our sensitivity analyses defining PDR by Stanford's GSS ≥10 to EFV, TDF, and/or XTC, we detected 3 discordant results: K70N in 1 participant and K238T in another participant were missed by Illumina sequencing, and A98G detected at 26.2% frequency by Illumina was not detected by Sanger.While the Stanford HIVdb gives a GSS ≥10 to EFV, TDF, and/or XTC for these 3 mutations, these codons are not included in the WHO list of surveillance mutations.Additionally, while Illumina detected resistance mutations at <20% frequencies (n = 20/101 and n = 25/ 101 using 5% and 1% thresholds, respectively), none of these mutations conferred resistance to TDF (Supplementary Table 4).NRTI resistance was detected at <20% frequency in 0 of 22 cases and 2 of 79 (2.5%) controls: M184I at 1.8% in 1 participant alone and D67G at 2.2% in another participant who also had K101E at 4.2%.The inclusion of minority variants recategorized, at most, 2 case and 7 control participants' genotypes, primarily from single to multiple NNRTI mutations (no additional participants with dual NRTI + NNRTI resistance mutations); thus, the increased odds of virologic failure associated with NNRTI PDR was maintained (Supplementary Tables 4 and 5).
Sensitivity analyses repeated the pairwise comparisons of pre-EFV genotypes associated with virologic failure using Stanford HIVdb GSS ≥10 to EFV/TDF/XTC and yielded results similar to primary analyses (Supplementary Tables 5-7).The minor differences were in the subgroup analyses of the antepartum TDF/FTC + LPV/r arm with single NNRTI mutations, ≥2 NNRTI mutations, and dual-class PDR associated with virologic failure in the unadjusted model (Supplementary Table 7).

HIV Drug Resistance at Virologic Failure
Of the 189 women with virologic failure during EFV-based ART, 180 (95.2%) genotypes were derived from their first failure timepoint (month 6 or month 12) and 9 specimens failed PCR amplification.Sixty-three of 159 (44.8%) women without PDR had drug-resistant variants detected at virologic failure.However, more than half (89/159 [55.2%]) had wild-type HIV at virologic failure during EFV-based ART (Table 4).In Overall effect of clinical site on adjusted model of virologic failure was significant (P < .001),so pairwise comparisons were performed with clinical site A-which had the most participants enrolled-as the reference group.c Sites with <100 participants enrolled were aggregated.Comparison only included the women who were randomized after delivery in PROMISE, either to the postpartum component or directly to the maternal health component, to evaluate the effect of triple ARV versus no treatment on virologic failure on EFV-based ART.Women who were not randomized after delivery (observational follow-up only) were excluded from this analysis (n = 220) as this group did not have a uniform treatment assignment.h Two separate models (both including all other covariates in the table) were generated to examine the effects of genotype; one to compare any drug resistance detected vs wild-type and the other to compare each mutational category (n = 7) to wild-type.i Ten samples did not amplify and thus have no genotype.*P < .05,**P < .01,***P < .001by logistic regression with Firth bias reduction.

DISCUSSION
Salient observations from this study include that NNRTI resistance mutations were prevalent among women prior to EFV-based ART initiation; however, NNRTI resistance mutations alone were not associated with virologic failure to EFV-based ART, except in a subset of the cohort randomized antepartum to TDF/FTC + LPV/r.Detection of NRTI + NNRTI resistance mutations were infrequent in this cohort; however, this dualclass drug resistance was strongly associated with virologic failure.Among women with virologic failure during EFV-based ART, testing at the time of virologic failure found that more than half maintained their wild-type genotypes.
It is notable that most study participants with PDR comprised of major NNRTI mutations, including K103N (estimated to confer a 15-to 40-fold reduction in EFV susceptibility for subtype C [19]), had suppression of HIV replication during treatment with TXE.This finding is consistent with studies of Kenyans and South Africans in whom PDR to NNRTI alone did not affect virologic outcome to EFV-based ART [5,7].Together, these data suggest that the combination of TXE, presumably with good adherence, is sufficiently potent to suppress viral replication despite the presence of NNRTI PDR.A systematic review of the virological efficacy of 4 regimens, including TDF/3TC/NVP, TDF/FTC/NVP, TDF/3TC/EFV, and TDF/FTC/EFV, found EFV/TDF/FTC to have equivalent or superior efficacy to its comparator arms across 4 comparator studies, possibly due to the higher potency of EFV compared to NVP, with potential contributions by FTC due to its longer intracellular half-life compared to 3TC [20].The greater activity of EFV at achievable blood levels compared to NVP may explain our observation that NNRTI PDR did not diminish overall efficacy of EFV-based ART.Additionally, a slower metabolism of EFV due to cytochrome p450 CYP2B6 polymorphisms prevalent among Africans may have further increased the potency of EFV [21,22] and contributed to EFV-based ART suppression of HIV replication despite NNRTI PDR.
The observation that any PDR was associated with virologic failure during EFV-based ART in the subanalyses of participants assigned to antepartum TDF/FTC + LPV/r in PROMISE differed from the larger group of participants.Our hypothesis that prior TDF/FTC exposure selected resistant variants with diminished replication capacity that persisted as minority variants was not supported by our Illumina studies.Whether minority variants persisted on the same viral template as NNRTI resistance mutations at frequencies below our limit of detection is unlikely, given that no additional NRTI mutations were detected among these participants at virologic failure.However, this subgroup differed from the other antepartum arms by later enrollment into PROMISE and thus a shorter interval between their antepartum TDF/FTC + LPV/r and EFV-based ART.We speculate that these mothers may have been administered routine but unrecorded single-dose NVP in labor, and that mutations selected by NVP may have contributed to virologic failure.Studies evaluating the effects of single-dose NVP on later NVP-based ART have found that a shorter interval between single-dose NVP and later ART is associated with virologic failure [23,24], most likely because replication-competent HIV variants "decay" with time [25,26].
In our overall adjusted model, clinical site, age, interval between last viremic visit and EFV initiation, and virologic status at prior delivery were all associated with virologic outcome on EFV-based ART.The association of clinical site may be attributed to geographical or site-specific characteristics that could contribute to nonadherence to EFV-based ART resulting in virologic failure, which has been reported previously [27].Age could be an indicator of a more mature approach to treatment adherence and is consistent with prior studies associating younger age with lower rates of ART adherence [28,29].Previous virologic failure at delivery during PROMISE and shorter interval between last viremic study visit and EFV initiation could indicate a pattern of nonadherence to treatment.Others have shown that historical nonadherence is predictive of future treatment failure [30,31].The large proportion of women (48.5%) whose virologic failure genotype was wild-type, which was variable across sites, provides additional evidence of potential nonadherence; however, our analyses were limited by lack of objective adherence measurements.There were several additional limitations to this study.The PROMISE trial inclusion criteria limited the study population to pregnant women with HIV who, due to a lack of disease and high CD4 counts, did not qualify for ART, and most participants (92.4%) we studied had viral load <5 log copies/mL at PROMISE enrollment.Therefore, our findings may not be representative of all women with HIV, particularly women with low CD4 cell counts due to HIV disease progression.The variation in virologic failure rates across clinical sites suggests that barriers to drug adherence differed between sites, particularly at the sites where virologic failure with wild-type HIV was more common.This may result in an underestimation of the association between PDR and virologic failure by month 6 or 12 of treatment; however, it is notable that the lack of an association between NNRTI PDR and treatment outcome in the previously published studies were in cohorts with relatively low rates of virologic failure (Kenyans [5.8%] and South Africans [5.5%]) [5,7].While we evaluated minority variants in a subset of women randomized to antepartum TDF/FTC + LPV/r within PROMISE, low-frequency drug resistance variants were not examined in all study participants, so it is uncertain if low-frequency mutations impacted treatment outcomes in others; however, minority variants did not appear relevant in either the Kenyan or South African cohorts [5,7].Additionally, the discordance between Illumina and Sanger genotypes detected in 3 participants suggests that primer bias, rather than sampling depth, affected our Sanger and/or next-generation sequencing, as >300 templates were sequenced by Illumina for all 3 discordant specimens.The post hoc comparison was comprised of a relatively small population (∼14% of the cohort) and the validity of these results is uncertain given the zero and single-digit event numbers that give low precision ORs.Last, analyses were focused on participants who completed at least 1 year of follow-up (and had specimens available), which limits the generalizability of our findings to participants with ≥12 months of follow-up on EFV-based ART.
In summary, this study found that the most prevalent NNRTI HIV drug resistance mutation, K103N, does not appear to increase the odds of virologic failure to EFV-based ART, except potentially in individuals previously administered TDF.The latter exception was from post hoc analysis of a relatively small population, which has not been confirmed in other studies.Dual class NNRTI + NRTI PDR was strongly associated with virologic failure during EFV-based ART in this study.However, the prevalence of dual class PDR was low in our study, which suggests that pretreatment genotypic testing prior to first-line ART initiation may not improve treatment outcomes for most people, which is consistent with current WHO guidelines.A potential exception is individuals infected during preexposure prophylaxis, although notably the prevalence of transmitted NRTI resistance has remained low, particularly for TDF-associated mutations [1].In conclusion, our data, along with those from 2 other studies [5,7], suggest that despite a high prevalence of NNRTI resistance in resource-limited settings, TXE could offer an effective HIV treatment for most individuals living with HIV.While TDF/3TC/DTG is currently recommended by the WHO for first-and second-line ART, given the limited number of affordable antiretrovirals in resourcelimited settings, TXE should be regarded as a potential alternative regimen when TDF/3TC/DTG is contraindicated or not well tolerated.

Figure 1 .
Figure 1.Promoting Maternal and Infant Survival Everywhere (PROMISE) trial randomization schema for efavirenz-based antiretroviral therapy (ART) substudy participants.The timing of all 3 antiretroviral drug randomizations are shown for each "component" of the PROMISE trial.The number of women in each PROMISE randomization group is shown in parentheses.Participants in this substudy cohort (N = 1233) had efavirenz-based ART prescribed (usually as tenofovir + lamivudine [or emtricitabine] + efavirenz) as part of local standard of care at any phase of the PROMISE trial.The impact of pre-efavirenz-based ART HIV drug resistance on ART suppression was assessed in women prescribed efavirenz-based ART at any phase of the PROMISE study.*Single-dosenevirapine was given at labor/delivery with a "tail" of tenofovir disoproxil fumarate /emtricitabine for 6-14 days to reduce the risk of resistance.†Eligible and willing antepartum and late-presenting mothers and their infants were randomized for the duration of breastfeeding; infants were to be followed to 104 weeks of age.Some mothers who were ineligible for the postpartum component were directly randomized to the maternal health component after delivery.‡Randomization to the maternal health component occurred at breastfeeding cessation or at or after 74 weeks of breastfeeding for women randomized in the postpartum component.Those randomized directly to the maternal health component after delivery were randomized between 6 and 28 days postpartum.Participants randomized in the antepartum component and not randomized in the postpartum component remained in observational follow-up.Abbreviations: 3TC, lamivudine; ART, antiretroviral treatment; ARVs, antiretroviral drugs; EFV, efavirenz; FTC, emtricitabine; LPV/r, ritonavir-boosted lopinavir; MTCT, mother-to-child transmission; NVP, nevirapine; PROMISE, Promoting Maternal and Infant Survival Everywhere; R, randomization; sdNVP, single-dose nevirapine; TDF, tenofovir disoproxil fumarate; ZDV, zidovudine.

d
Thirty-three participants did not have HIV RNA viral load measurements within 14 days of delivery: 4 who failed on EFV-based ART and 29 who suppressed on EFV-based ART. e One participant enrolled after delivery and was not randomized in antepartum component of PROMISE.f There was no difference in the odds of failing EFV-based ART when randomized to the ZDV monotherapy arm (reference group) versus the triple ARV (TDF/FTC + LPV/r) arm during the antepartum component (OR, 0.94 [95% CI, .57-1.53];P = .9). Results of Fisher exact test shown in Supplementary Table

Table 1 . Continued
One participant was enrolled into PROMISE at delivery (ie, "late presenter") and thus was not randomized during the antepartum component.Ten samples did not amplify and thus have no HIV subtype or genotype.Resistance to protease inhibitors was not detected in any participants.Abbreviations: 3TC, lamivudine; ART, antiretroviral therapy; ARV, antiretroviral drug; EFV, efavirenz; FTC, emtricitabine; HBsAg, hepatitis B surface antigen; HIV, human immunodeficiency virus; IQR, interquartile range; LPV/r, ritonavir-boosted lopinavir; NNRTI, nonnucleoside reverse transcriptase inhibitor; NRTI, nucleos(t)ide reverse transcriptase inhibitor; PROMISE, Promoting Maternal and Infant Survival Everywhere; sdNVP, single-dose nevirapine; TDF, tenofovir disoproxil fumarate; ZDV, zidovudine.NRTI mutation(s) or multiple NNRTI mutations were not associated with virologic failure compared to no PDR.Additionally, PDR with single major NNRTI mutations (K103N, Y181C, or G190A) was not associated with virologic failure during EFV-based ART.We observed that most participants with PDR due to a single pretreatment NNRTI mutation associated with high-level resistance to EFV (Stanford GSS ≥30) (n = 97/ a Aggregated sites with <100 participants enrolled.b Thirty-three participants did not have HIV RNA viral load measurements within 14 days of delivery.c d

Table 2 . Comparison of Women With Virologic Failure Versus Antiretroviral Therapy (ART) Suppression During Efavirenz-Based ART
Unadjusted analyses examined the relationship with each covariate independently, whereas the adjusted logistic regression model included all covariates (age, CD4 count, HIV RNA load, interval between delivery and EFV initiation, interval between last viremic visit and EFV duration, duration of EFV, clinical site, hepatitis B test result, previous PROMISE treatment randomization arms, and genotype).

Table 3 . Comparison of Women With Virologic Failure Versus Antiretroviral Therapy (ART) Suppression During Efavirenz-Based ART Within Prior PROMISE Antepartum Treatment Arms
Two separate models were generated to examine the effects of genotype; one to compare any drug resistance detected vs wild-type and the other to compare each mutational category (n = a

Table 4 . Prevalence of Human Immunodeficiency Virus Drug Resistance Among Participants With Virologic Failure During Efavirenz-Based Antiretroviral Therapy
*** P < .0001by Fisher exact test.